// TortoiseSVN - a Windows shell extension for easy version control

// Copyright (C) 2007-2009, 2012 - TortoiseSVN

// This program is free software; you can redistribute it and/or
// modify it under the terms of the GNU General Public License
// as published by the Free Software Foundation; either version 2
// of the License, or (at your option) any later version.

// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
// GNU General Public License for more details.

// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software Foundation,
// 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
//
#pragma once

///////////////////////////////////////////////////////////////
// include used classes
///////////////////////////////////////////////////////////////

#include "StreamException.h"

///////////////////////////////////////////////////////////////
// we use ints (or at least int-like types) for IDs
///////////////////////////////////////////////////////////////

typedef int STREAM_TYPE_ID;
typedef int SUB_STREAM_ID;

///////////////////////////////////////////////////////////////
//
// IStreamFactory<>
//
//      interface for stream factories. It's a template since
//      the interface is symmetric for in and out streams.
//      I.e. there will be only two instances of it.
//
//      I is the desired stream object interface
//      (either in or out stream interface).
//      B is the corresponding file buffer class
//      (used by the streams to r/w their data)
//
///////////////////////////////////////////////////////////////

template<class I, class B>
class IStreamFactory
{
public:

    // it's a class with v-table ..
    // so, provide an explicitly virtual destructor

    virtual ~IStreamFactory() {};

    // the actual interface methods
    // the type of streams that will be created
    // and the actual creator method

    virtual STREAM_TYPE_ID GetTypeID() const = 0;
    virtual I* CreateStream ( B* buffer
                            , int id) const = 0;
};

///////////////////////////////////////////////////////////////
//
// CStreamFactoryPool<>
//
//      Pool (singleton) of all stream factories. There will be
//      two instances of this template (in and out).
//
//      I is an IStreamFactory<> instance.
//
//      Factories will not be removed from the pool during
//      application tear-down. You must not access the pool
//      during the destruction of any static object.
//
//      Usage:
//
//      stream = pool::GetInstance()->GetFactory(type)->CreateStream(..)
//
///////////////////////////////////////////////////////////////

template<class I>
class CStreamFactoryPool
{
private:

    // all factories that registered to this pool

    typedef std::map<STREAM_TYPE_ID, I*> TFactories;
    TFactories factories;

    // singleton -> hide construction

    CStreamFactoryPool() {};

public:

    // destruction (nothing to do)

    ~CStreamFactoryPool() {};

    // find the factory to the given stream type

    const I* GetFactory (STREAM_TYPE_ID type) const
    {
        typename TFactories::const_iterator iter = factories.find (type);
        if (iter == factories.end())
            throw CStreamException ("No factory for that stream type");

        return iter->second;
    }

    // register a new factory (and don't register twice)

    void Add (I* factory)
    {
        assert (factories.find (factory->GetTypeID()) == factories.end());
        factories [factory->GetTypeID()] = factory;
    }

    // Meyer's singleton

    static CStreamFactoryPool<I>* GetInstance()
    {
        static CStreamFactoryPool<I> instance;
        return &instance;
    }
};

///////////////////////////////////////////////////////////////
//
// CStreamFactory<>
//
//      Implements IStreamFactory<> for a given stream class T.
//      I.e. it provides a singleton factory class for that type.
//
//      T is the stream class.
//      I is the generic stream interface (either in or out).
//      B is the corresponding file buffer class
//      type is a unique type identifier.
//
//      All instances of this class auto-register to a central
//      factory pool (see CStreamFactoryPool<>).
//
//      Stream types are expected to declare a suitable factory
//      as static member.
//
///////////////////////////////////////////////////////////////

template<class T, class I, class B, STREAM_TYPE_ID type>
class CStreamFactory : public IStreamFactory<I, B>
{
private:

    // singleton -> we hide the constructors
    // auto-register to pool during construction

    CStreamFactory()
    {
        typedef CStreamFactoryPool< IStreamFactory<I, B> > TPool;
        TPool::GetInstance()->Add (this);
    }

public:

    // as we have static run-time, we cannot be sure that the
    // pool is still alive when we get destroyed
    // -> don't deregister from pool upon destruction

    virtual ~CStreamFactory()
    {
    }

    // implement IStreamFactory

    virtual STREAM_TYPE_ID GetTypeID() const override
    {
        return type;
    }

    virtual I* CreateStream (B* buffer, int id) const
    {
        return new T (buffer, id);
    }

    // Meyer's singleton

    static const IStreamFactory<I, B>* GetInstance()
    {
        static CStreamFactory<T, I, B, type> instance;
        return &instance;
    }

    // creator utility

    struct CCreator
    {
        CCreator()
        {
            CStreamFactory::GetInstance();
        }
    };
};

///////////////////////////////////////////////////////////////
// forward declarations: the two basic stream interfaces (I & O)
///////////////////////////////////////////////////////////////

class IHierarchicalInStream;
class IHierarchicalOutStream;

///////////////////////////////////////////////////////////////
// forward declarations: the two buffered file abstractions (I & O)
///////////////////////////////////////////////////////////////

class CCacheFileInBuffer;
class CCacheFileOutBuffer;

///////////////////////////////////////////////////////////////
// some frequently used template instances
///////////////////////////////////////////////////////////////

typedef IStreamFactory<IHierarchicalInStream, CCacheFileInBuffer> IInStreamFactory;
typedef IStreamFactory<IHierarchicalOutStream, CCacheFileOutBuffer> IOutStreamFactory;
typedef CStreamFactoryPool<IInStreamFactory> CInStreamFactoryPool;
typedef CStreamFactoryPool<IOutStreamFactory> COutStreamFactoryPool;

